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Biomedical Engineering
The Biomedical Engineering Bachelor of Science program at the University of Wisconsin provides students with a comprehensive education in the integration of engineering principles and biological sciences to solve complex problems in healthcare and medical technology. The program emphasizes the design, development, and application of medical devices, diagnostic equipment, biomaterials, and therapeutic technologies. Students study core engineering disciplines, including mechanics, electronics, materials science, and computational modeling, while also gaining a deep understanding of human physiology, anatomy, and cellular biology. The curriculum fosters critical thinking, problem-solving, and interdisciplinary collaboration, equipping students to innovate at the intersection of engineering and medicine.
Students engage in hands-on laboratory work, design projects, and collaborative research, gaining practical experience in developing biomedical technologies and evaluating their performance. The program also emphasizes the ethical, regulatory, and safety considerations necessary in the biomedical field, ensuring students understand the societal and professional responsibilities of engineers in healthcare. Interdisciplinary coursework links biomedical engineering to fields such as computer science, bioinformatics, and clinical sciences, providing a holistic approach to solving healthcare challenges. Graduates leave the program with both technical expertise and practical experience, prepared to contribute to medical innovation and healthcare improvement.
Key information
Key Facts
- Program Title: Biomedical Engineering
- Degree Type: Bachelor of Science
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 15 January 2026
- Location: University of Wisconsin, United States
- Field of Study: Bio & Biomedical Engineering
- Language of Instruction: English
Program Structure
Year 1 – Foundations in Biomedical Engineering
• Introduction to Biomedical Engineering
• General Biology and Chemistry
• College Writing and Communication
• Calculus I & II
Year 2 – Core Engineering and Biological Sciences
• Mechanics and Materials Science
• Electronics and Instrumentation
• Human Physiology and Anatomy
• Computer Programming and Data Analysis
Year 3 – Applied Biomedical Engineering
• Biomaterials and Biomechanics
• Medical Imaging and Diagnostics
• Systems Physiology and Modeling
• Laboratory Design Projects
Year 4 – Advanced Topics and Capstone
• Biomedical Device Design and Development
• Clinical Applications and Regulatory Standards
• Independent Research Project or Capstone
• Seminar in Biomedical Engineering Innovation
Career Opportunities
Graduates of the Biomedical Engineering program are prepared for careers in medical device design, biomedical research, clinical engineering, healthcare technology development, biomaterials research, regulatory compliance, and bioinformatics. They may work for hospitals, medical device companies, research institutions, biotechnology firms, and government agencies focused on health and innovation. Many graduates pursue advanced degrees in biomedical engineering, medicine, bioinformatics, or materials science, enabling specialization in research, clinical application, or academic leadership. Employers value graduates for their technical proficiency, problem-solving abilities, interdisciplinary knowledge, and ability to design, test, and implement medical technologies, making them highly competitive in both the medical and engineering industries.
Why Choose This Program
This program offers a unique combination of engineering expertise, biological insight, and practical experience, preparing students to innovate in medical technology and healthcare solutions. Students benefit from access to advanced laboratories, research facilities, and mentorship from faculty engaged in cutting-edge biomedical research. The curriculum emphasizes hands-on design projects, ethical considerations, and regulatory knowledge, ensuring graduates are prepared to navigate the technical and professional demands of the healthcare field. Interdisciplinary learning, combined with problem-solving and analytical training, equips students to develop safe, effective, and innovative medical solutions. Whether pursuing careers in medical device development, clinical engineering, or biomedical research, graduates leave with the expertise, practical skills, and professional confidence to make meaningful contributions to advancing human health.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 608-262-2433
Email: admissions@grad.wisc.edu
Address: 217 Bascom Hall, 500 Lincoln Drive, Madison, WI 53706, USA
